Microgrid Control System

1. A method for configuring a microgrid comprising a virtual power plant having a plurality of power generation sources and a plurality of power loads, the method comprising: pinging each element in a plurality of microgrid elements to verify a configuration of the plurality of micro grid elements; initializing, based on a result of the pinging, a first configuration of the microgrid having a plurality of distributed energy resources and the plurality of microgrid elements, the plurality distributed energy resources being autonomous and the plurality of microgrid elements being connected in a peer-to-peer processor network, wherein a plurality of distributed energy resources include at least one small scale power generation element selected from at least one of a wind turbine, a photovoltaic system, a fuel cell, a geothermal power generator, a microturbine, a combustion turbine, a reciprocating engine, a hybrid power generator that uses both heat and power, or a hydroelectric power generator; receiving status data from the plurality of microgrid elements that indicates a reconfiguration of the microgrid; responsive to receiving status data from the plurality of microgrid elements that indicates the reconfiguration of the microgrid, re-aligning the plurality of microgrid elements to form a second grid configuration; and executing the second grid configuration.

2. The method of claim 1 , wherein the plurality of microgrid elements comprises at least one of a sensor associated with the plurality of distributed energy resources, a controller associated with the plurality of distributed energy resources, a processor, a router, and a managed Ethernet switch.

3. The method of claim 1 further comprising: performing a live test of the first configuration of the microgrid, wherein the live test comprises pinging the each element in the plurality of microgrid elements.

4. The method of claim 1 further comprising: identifying an average load and a common load associated with the plurality of microgrid elements.

5. The method of claim 1 further comprising: verifying an address for each element in the plurality of microgrid elements.

6. A method for managing a microgrid comprising a virtual power plant having a plurality of power generation sources and a plurality of power loads, the method comprising: pinging each element in a plurality of microgrid controller elements to verify a configuration of the plurality of microgrid elements; receiving, based on a result of the pinging, status data from the plurality of microgrid controller elements connected in a peer-to-peer controller network connecting the plurality of microgrid controller elements within a microgrid local area network of a microgrid having a plurality of distributed energy resources, the plurality of distributed energy resources being autonomous, wherein the plurality of distributed energy resources is at least one small scale power generation element selected from at least one of a wind turbine, a photovoltaic system, a fuel cell, a geothermal power generator, a microturbine, a combustion turbine, a reciprocating engine, a hybrid power generator that uses both heat and power, or a hydroelectric power generator; responsive to the status data indicating a change in the microgrid that exceeds a threshold level, re-aligning the plurality of microgrid controller elements and a plurality of tasks associated with the plurality of microgrid controller elements to form a re-aligned microgrid configuration; and executing the re-aligned microgrid configuration.

7. The method of claim 6 further comprising: receiving status data from a plurality of distributed energy resource cluster processors connected in a peer-to-peer processor network within the microgrid local area network.

8. The method of claim 6 further comprising: responsive to the status data indicating a failure in a first controller element in the plurality of controller elements, assigning a function of the first controller element to a second controller element in the plurality of controller elements.

9. The method of claim 6 , wherein a given managed Ethernet switch is connected to a single controller element in the plurality of controller elements.

10. An apparatus comprising: a microgrid comprising a virtual power plant having a plurality of power generation sources and a plurality of power loads and having a plurality of distributed energy resources and a plurality of microgrid elements, the plurality of distributed energy resources being autonomous, wherein the plurality of distributed energy resources is at least one small scale power generation element selected from at least one of a wind turbine, a photovoltaic system, a fuel cell, a geothermal power generator, a microturbine, a combustion turbine, a reciprocating engine, a hybrid power generator that uses both heat and power, or a hydroelectric power generator; and a microgrid controller associated with the microgrid configured to ping each element in a plurality of micro grid elements to verify a configuration of the plurality of microgrid elements, initialize, based on a result of the pinging, a first configuration of the microgrid; verify an address for each element in the plurality of microgrid elements; re-align the plurality of microgrid elements to form a second grid configuration in response to receiving status data from the plurality of microgrid elements connected in a peer-to-peer network that indicates a reconfiguration of the microgrid; and execute the second grid configuration.

11. The apparatus of claim 10 further comprising: a plurality of two routers connected to a processor in a distributed energy resource cluster within the microgrid.

12. The apparatus of claim 10 , wherein the plurality of elements comprises at least one of a sensor associated with the plurality of distributed energy resources, a controller associated with the plurality of distributed energy resources, a processor, a router, and a managed Ethernet switch.

13. The apparatus of claim 10 , wherein the microgrid controller is further configured to perform a live test of the first configuration of the microgrid, wherein the live test comprises pinging the each element in the plurality of microgrid elements.

14. The apparatus of claim 10 , wherein the peer-to-peer network is a network within a microgrid control center network and further comprising: a plurality of microgrid controller elements, wherein the peer-to-peer network further comprises a controller network connecting each element in the plurality of microgrid controller elements to form a peer-to-peer controller network within the microgrid control center network.

15. The apparatus of claim 14 further comprising: a first controller element in the plurality of controller elements, wherein the first controller element is configured to send controller status data generated by the first controller element to a second controller element in the plurality of microgrid controller elements using the controller network.

16. The apparatus of claim 10 , wherein the peer-to-peer network is a network within a microgrid control center network and further comprising: a plurality of processors, wherein the peer-to-peer network comprises a processor network connecting each distributed energy resource processor in the plurality of processors to form a peer-to-peer processor network within the microgrid control center network.

17. The apparatus of claim 16 further comprising: a first processor in the plurality of processors configured to send processor status data generated by the first processor to a second processor in the plurality of processors using the processor network.

18. A computer program product for configuring a microgrid comprising a virtual power plant having a plurality of power generation sources and a plurality of power loads, the computer program product comprising: a computer recordable storage medium that is non-transitory; program code, stored on the computer recordable storage medium, for pinging each element in a plurality of microgrid elements to verify a configuration of the plurality of microgrid elements; program code, stored on the computer recordable storage medium, for initializing, based on a result of the pinging, a first configuration of the microgrid having a plurality of distributed energy resources and a plurality of microgrid elements, wherein the plurality of distributed energy resources is autonomous, and wherein the plurality of distributed energy resources is at least one small scale power generation element selected from at least one of a wind turbine, a photovoltaic system, a fuel cell, a geothermal power generator, a microturbine, a combustion turbine, a reciprocating engine, a hybrid power generator that uses both heat and power, or a hydroelectric power generator; program code, stored on the computer recordable storage medium, for verifying an address for each element in the plurality of microgrid elements; program code, stored on the computer recordable storage medium, for re-aligning the plurality of microgrid elements to form a second grid configuration in response to receiving status data from the plurality of microgrid elements connected in a peer-to-peer network that indicates a reconfiguration of the microgrid; and program code, stored on the computer recordable storage medium, for executing the second grid configuration.

19. The computer program product of claim 18 , wherein the peer-to-peer network is a network within a microgrid local area network and wherein the peer-to-peer network further comprises a controller network and further comprising: program code, stored on the computer recordable storage medium, for connecting each controller element in the plurality of microgrid elements in the peer-to-peer controller network within the local area network; and program code, stored on the computer recordable storage medium, for sending the status data generated by a first controller element on the microgrid to a second controller element in the plurality of microgrid elements using the controller network.

20. The computer program product of claim 18 , wherein the peer-to-peer network is a network within a microgrid local area network, wherein the peer-to-peer network further comprises a processor network connecting each distributed energy resource processor in a plurality of cluster processors in the peer-to-peer network within the microgrid local area network, and further comprising: program code, stored on the computer recordable storage medium, for sending status data generated by a first cluster processor on the microgrid to a second cluster processor in the plurality of cluster processors using the processor network.